本书介绍了人工林木材的储备、发展状况和保护木材安全的重要性，叙述了人工林木材干燥皱缩及收缩的基础理论。本书以桉树为代表，归纳了人工林木材的解剖学结构、变色特性、水分吸收特性等性质与木材干燥皱缩之间的关系，阐述了间歇式干燥对人工林木材细胞微观形貌的影响规律，总结了采用间歇式干燥减小人工林木材干燥皱缩及收缩程度的最优工艺。主要从事林业工程、木材科学与技术、生物质材料与工程、森林工程等领域的科研或生产人员。

Chapter 1 Overview
1.1 A brief introduction to wood resources
1.1.1 International wood resources
1.1.2 China's wood resources
1.2 General drying theory and technology
1.2.1 Wood-water relations
1.2.2 Wood drying theory
1.2.3 Wood drying technology
1.3 Drying theory and technology related to wood collapse
1.3.1 Fundamental properties related to wood collapse
1.3.2 Prediction and assessment of wood collapse
1.3.3 Traditional wood collapse theory
1.3.4 Novel wood transient collapse theory
1.3.5 Drying technology for minimizing collapse
1.4 Summary
References
Chapter 2 Anatomical Characteristies vs. Shrinkage and Collapse
2.1 Introduction
2.2 Materials and methods
2.2.1 Collection of sample woods
2.2.2 Preparation of specimens
2.2.3 Determination of unit shrinkage (a),total shrinkage and residual
collapse
2.2.4 Measurement of basic density
2.2.5 Determination of microfibril angle (MFA)
2.2.6 Determination of both fiber morphology and various tissues
proportion
2.2.7 Statistics analysis
2.3 Results
2.3.1 Statistics on various indices
2.3.2 Correlation analysis
2.3.3 Regression analysis
2.4 Discussions
2.4.1 Relationship between basic density and unit shrinkage and total
shrinkage
2.4.2 Relationship between basic density and residual collapse
2.4.3 Relationship of anatomical characteristics to unit shrinkage and
total shrinkage
2.4.4 Relationship between anatomical characteristics and residual
collapse
2.5 Conclusions
References
Chapter 3 Colorimetric Characteristies vs.Shrinkage and Collapse
3.1 Introduction
3.2 Material and methods
3.2.1 Preparation of specimens
3.2.2 Steaming and drying procedure
3.2.3 Non-collapse shrinkage tests
3.2.4 Determination of total shrinkage, normal shrinkage and collapse
by image analysis technique
3.2.5 Measurements of color parameters
3.2.6 Regression analysis
3.2.7 Measurement of NIR
3.3 Results and discussions
3.3.1 Effects of drying temperatures on shrinkage and collapse
properties
3.3.2 Effects of steaming treatments on shrinkage and collapse
properties
3.3.3 Effects of combination of various heat and stea ming treatments
on both shrinkage and collapse
3.3.4 Shrinkage and collapse properties-colorimetric parameters
relationships when subjected to various heat treatments
3.3.5 Shrinkage and collapse values-colorimetric parameters relationships
when subjected to various steaming treatments
3.3.6 Shrinkage and collapse values-colorimetric parameters relationships
when subjected to combination of heat and steaming treatments
3.3.7 Effect of steaming time on sample coloring
3.3.8 Effect of drying process on sample coloring
3.4 Conclusions
References
Chapter 4 Water Vapor Sorption Behavior ys.Shrinkage and Collapse
4.1 Introduction
4.2 Materials and methods
4.2.1 Preparation of specimens
4.2.2 Heating and steaming procedure
4.2.3 Non-collapse shrinkage tests
4.2.4 Determination of total shrinkage, normal shrinkage and collapse
by image analysis technique
4.2.5 Determination of water vapor sorption behavior
4.3 Results and discussion
4.3.1 Water vapor sorption behavior
4.3.2 Sorption hysteresis
4.3.3 Sorption kinetics
4.3.4 The applicability of Kelvin-Voigt model
4.4 Conclusions
References
Chapter 5 Drying Conditions vs. Shrinkage and Collapse
5.1 Introduction
5.2 Materials and methods
5.2.1 Preparation of specimens
5.2.2 Continuous drying procedures
5.2.3 Intermittent drying procedures
5.2.4 Measurement of dimension by image analysis technique
5.2.5 Determination of total shrinkage and residual collapse
5.2.6 SEM observation
5.2.7 Advancement of no